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Methods (San Diego, Calif.)
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December 3, 2014
Methods to analyze SNARE-dependent vesicular fusion events that regulate autophagosome biogenesis
Kevin Moreau, Claudia Puri, David C Rubinsztein
Trends in Cell Biology
|
March 6, 2025
Autophagy-dependent versus autophagy-independent ferroptosis
Ye Zhu, Motoki Fujimaki, David C Rubinsztein
Neuroscience Letters
|
September 25, 2002
The bacterial chaperonin GroEL requires GroES to reduce aggregation and cell death in a COS-7 cell model of Huntington's disease
Jenny Carmichael, Coralie Vacher, David C Rubinsztein
Methods in Molecular Biology (Clifton, N.J.)
|
June 2, 2018
Assessing Autophagic Activity and Aggregate Formation of Mutant Huntingtin in Mammalian Cells
Eleanna Stamatakou, Ye Zhu, David C Rubinsztein
Human Molecular Genetics
|
December 11, 2007
p21-activated kinase 1 promotes soluble mutant huntingtin self-interaction and enhances toxicity
Shouqing Luo, Haruo Mizuta, David C Rubinsztein
Biochemical Society Transactions
|
November 22, 2013
Autophagy and mammalian development
Xiaoting Wu, Hyeran Won, David C Rubinsztein
Methods in Molecular Biology (Clifton, N.J.)
|
April 22, 2008
Clearance of mutant aggregate-prone proteins by autophagy
Brinda Ravikumar, Sovan Sarkar, David C Rubinsztein
Nature Reviews. Drug Discovery
|
September 1, 2012
Autophagy modulation as a potential therapeutic target for diverse diseases
David C Rubinsztein, Patrice Codogno, Beth Levine
Current Biology : CB
|
January 14, 2012
Mechanisms of autophagosome biogenesis
David C Rubinsztein, Tomer Shpilka, Zvulun Elazar
Trends in Biochemical Sciences
|
January 12, 2013
Connections between SNAREs and autophagy
Kevin Moreau, Maurizio Renna, David C Rubinsztein
Page
of 32
Search research articles
Search
Showing results (61-70 of 313) with videos related to
Sort By:
Page
of 32
Methods (San Diego, Calif.)
|
December 3, 2014
Methods to analyze SNARE-dependent vesicular fusion events that regulate autophagosome biogenesis
Kevin Moreau, Claudia Puri, David C Rubinsztein
Trends in Cell Biology
|
March 6, 2025
Autophagy-dependent versus autophagy-independent ferroptosis
Ye Zhu, Motoki Fujimaki, David C Rubinsztein
Neuroscience Letters
|
September 25, 2002
The bacterial chaperonin GroEL requires GroES to reduce aggregation and cell death in a COS-7 cell model of Huntington's disease
Jenny Carmichael, Coralie Vacher, David C Rubinsztein
Methods in Molecular Biology (Clifton, N.J.)
|
June 2, 2018
Assessing Autophagic Activity and Aggregate Formation of Mutant Huntingtin in Mammalian Cells
Eleanna Stamatakou, Ye Zhu, David C Rubinsztein
Human Molecular Genetics
|
December 11, 2007
p21-activated kinase 1 promotes soluble mutant huntingtin self-interaction and enhances toxicity
Shouqing Luo, Haruo Mizuta, David C Rubinsztein
Biochemical Society Transactions
|
November 22, 2013
Autophagy and mammalian development
Xiaoting Wu, Hyeran Won, David C Rubinsztein
Methods in Molecular Biology (Clifton, N.J.)
|
April 22, 2008
Clearance of mutant aggregate-prone proteins by autophagy
Brinda Ravikumar, Sovan Sarkar, David C Rubinsztein
Nature Reviews. Drug Discovery
|
September 1, 2012
Autophagy modulation as a potential therapeutic target for diverse diseases
David C Rubinsztein, Patrice Codogno, Beth Levine
Current Biology : CB
|
January 14, 2012
Mechanisms of autophagosome biogenesis
David C Rubinsztein, Tomer Shpilka, Zvulun Elazar
Trends in Biochemical Sciences
|
January 12, 2013
Connections between SNAREs and autophagy
Kevin Moreau, Maurizio Renna, David C Rubinsztein
Page
of 32